Closure of left ventricle perforation with the use of muscular VSD occluder

Growing experience in interventional cardiology leads to the use of large diameter of vascular equipment. In some instances, the so-called hybrid procedures are performed. After performing the interventional procedure, the opening in ventricular wall is closed surgically. Our intention was to check if the MVSDO can be used to close the perforation in the heart after the interventional cardiology procedure performed through the left ventricular (LV) free wall. In three pigs under general anesthesia, the heart was exposed through a small substernal incision. The LV was punctured and an 18F sheath was introduced into the LV. A 14 mm MVSDO was inserted through the 10F Delivery System. Using both the echocardiographic and angiographic guidance, the MVSDO was placed on the LV wall to close the opening in the LV. Time and volume of bleeding was recorded. In all cases the occluder was successfully placed closing the opening, bleeding observed after deployment of occluder lasted for approximately 2 min. We think MVSD occluder can be used to close the LV free wall perforation after hybrid interventional cardiac procedure. Early bleeding through MVSDO might be resolved by the manufacturing of new occluder with better sealing properties

Atrioventricular block after transcatheter closure of perimembranous ventricular septal defects

OBJECTIVE: To look at the presentation, treatment and outcome of patients who developed atrioventricular block after transcatheter closure of a perimembranous ventricular septal defect (PMVSD) with the Amplatzer PMVSD device. SETTING: Three tertiary referral centres for paediatric cardiology in two countries. RESULTS: All three patients presented within 10 days of the procedure. All three patients were treated with intravenous steroids. A permanent pacemaker was inserted in all patients but no pacemaker required activation after two months. CONCLUSION: Complete atrioventricular block occurring in the weeks after device occlusion of a PMVSD appears to resolve quickly. Continued involvement in multicentre device databases is required to monitor safety

Gefäßchirurgische Ausbildung in endovaskulärer Technik in Lausanne

Between 1995 and 2005, the number of aortic aneurysms treated annually using endovascular techniques (EVAR) increased from 0 to 50, including all aortic stages. Our organization includes a large team of surgeons, a stock of three complete families of endoprostheses (straight, conical and bifurcated), a mobile trolley with accessories (arterial introducer/introducer sheath, guide wire, catheters, balloons, etc.) and an appliance on wheels for intravascular ultrasound examination (IVUS). This appliance, together with a mobile fluoroscopy device (c-arm), allows endovascular aneurysms analysis of every operating room in our institution, usually without angiography or the use of contrast medium. In general, we are therefore not depending on substantial preoperative imaging in order to identify candidates for endovascular aneurysms repair and can treat abdominal and thoracic aortic ruptures without delay. For endovascular aortic aneurysms repair we distinguish between process steps on the one hand (determining indications, imaging of the access vessels, measurement using IVUS and road mapping via fluoroscopy, selection of implant, implant insertion, positioning, setting the implant, determining success, reconstruction of the access vessel and follow-up) and the level of competence on the other (assistant, senior and directing physicians). Our ultrasound supported technique for endovascular aneurysms repair has been successfully brought to other hospitals using an IVUS transporter and telementoring